Unitaid Approves $30 Million for Groundbreaking Tuberculosis Test

The Xpert assay represents a major advance for the diagnosis of tuberculosis, as it is based on the recognition of the DNA of the tuberculosis bacillus and provides dependable results directly from sputum samples in less than 2 hours. This method of diagnosis is much more reliable than microscopy, currently used in most laboratories. In addition, Xpert also detects resistance to rifampicin, one of the most commonly used drugs for the treatment of tuberculosis.

Through the agreement reached by UNITAID, the United States Government and the Bill & Melinda Gates Foundation, the manufacturer of Xpert, Cepheid, will significantly reduce the price of diagnostic cartridges from today’s $17 to less than $10.

This price reduction will allow an accelerated roll-out of the test, which was endorsed by the World Health Organization in December 2010. It will apply to more than 145 purchasers in low and middle income countries, including those with high-burden of multi-drug resistant tuberculosis and co-infection of HIV and tuberculosis.

Xpert will be rolled-out in around 20 countries, under the leadership of WHO and the Stop TB Partnership, which will administer the UNITAID grant.

In addition, the "TB REACH" initiative of the Stop TB Partnership, supported by the Canadian Government, will co-fund up to US$ 10 million the implementation of the tests in countries, drawing upon its experiences gained so far in the early introduction of the test in selected countries.

Xpert, once introduced and widely scaled-up, is expected to dramatically reduce the diagnostic gaps for tuberculosis, in particular in its multi-drug resistant form, or associated with an HIV infection.

However, this diagnostic breakthrough will only trigger a reduction of the burden of tuberculosis if the new cases it will identify will receive an appropriate treatment. Governments and donors will need to identify sufficient funding for this purpose in the coming years.

RELATED ARTICLES

A new form of synthetic DNA expands the information density of the genetic code, that likely preserves its capability for supporting life, according to a new study. By expanding the genetic alphabet from four letters to eight, researchers demonstrate the ability to double the information density in DNA.